import { app, shell, BrowserWindow, ipcMain } from 'electron'
import { join } from 'path'
import { electronApp, is, optimizer, } from '@electron-toolkit/utils'
import icon from '../../resources/icon.png?asset'
import checkUpdate from './UpdateController'
import dowlandUpdate from './update2'
import './sourceMenu'
let mainWindow: BrowserWindow
function createWindow(): void {
  // Create the browser window.
  mainWindow = new BrowserWindow({
    width: 900,
    height: 670,
    show: false,
    autoHideMenuBar: true,
    ...(process.platform === 'linux'
      ? { icon }
      : {
          icon
        }),
    webPreferences: {
      preload: join(__dirname, '../preload/index.js'),
      sandbox: false
    }
  })

  mainWindow.on('ready-to-show', () => {
    mainWindow.show()
  })
  checkUpdate(mainWindow)
  dowlandUpdate(mainWindow)

  mainWindow.webContents.setWindowOpenHandler((details) => {
    shell.openExternal(details.url)
    return { action: 'deny' }
  })

  // HMR for renderer base on electron-vite cli.
  // Load the remote URL for development or the local html file for production.
  // mainWindow.loadURL('http://localhost:8881/')
  if (is.dev && process.env['ELECTRON_RENDERER_URL']) {
    console.log(process.env['ELECTRON_RENDERER_URL']);
    mainWindow.loadURL(process.env['ELECTRON_RENDERER_URL'])
  } else {
    mainWindow.loadFile(join(__dirname, '../renderer/index.html'), {})
  }
  mainWindow.once('ready-to-show', () => {
    // mainWindow.webContents.openDevTools()
  })
}

// This method will be called when Electron has finished
// initialization and is ready to create browser windows.
// Some APIs can only be used after this event occurs.
app.whenReady().then(() => {
  // Set app user model id for windows
  electronApp.setAppUserModelId('com.electron')

  // Default open or close DevTools by F12 in development
  // and ignore CommandOrControl + R in production.
  // see https://github.com/alex8088/electron-toolkit/tree/master/packages/utils
  app.on('browser-window-created', (_, window) => {
    optimizer.watchWindowShortcuts(window)
  })

  // IPC test
  ipcMain.on('ping', () => console.log('pong'))
  ipcMain.on('handlePrint', (_, obj) => {
    //主进程接受渲染进程消息,向打印页面传递数据
    if (mainWindow) {
      mainWindow!.webContents.send('data', obj)
    }
  })
  ipcMain.on('startPrint', () => {
    //这里如果不指定打印机使用的是系统默认打印机,如果需要指定打印机,
    //可以在初始化的时候使用webContents.getPrintersAsync()获取打印机列表,
    //然后让用户选择一个打印机,打印的时候将打印机名称传过来
    mainWindow.webContents.getPrintersAsync().then((printers) => {
      console.log(
        printers.map((it) => {
          return {
            name: it.name,
            isDefault: it.isDefault
          }
        })
      )
    })
    return
    mainWindow!.webContents.print(
      {
        silent: true,
        margins: { marginType: 'none' }
        //deviceName:如果要指定打印机传入打印机名称
      },
      (success) => {
        //通知渲染进程打印状态
        if (success) {
          mainWindow.webContents.send('printStatus', 'success')
        } else {
          mainWindow.webContents.send('printStatus', 'error')
        }
      }
    )
  })

  createWindow()

  app.on('activate', function () {
    // On macOS it's common to re-create a window in the app when the
    // dock icon is clicked and there are no other windows open.
    if (BrowserWindow.getAllWindows().length === 0) createWindow()
  })
})

// Quit when all windows are closed, except on macOS. There, it's common
// for applications and their menu bar to stay active until the user quits
// explicitly with Cmd + Q.
app.on('window-all-closed', () => {
  if (process.platform !== 'darwin') {
    app.quit()
  }
})

// In this file you can include the rest of your app"s specific main process
// code. You can also put them in separate files and require them here.
